Add to ORKGDespite numerous previous studies, two relationships between deep convection and the sea-surface temperature (SST) of the tropics remain unclear. The first is the cause for the sudden emergence of deep convection at about 28 deg SST, and the second is its proximity to the highest observed SST of about 30 C. Our analysis provides a rational explanation for both by utilizing the Improved Meteorological (IMET) buoy data together with radar rainfall retrievals and atmospheric soundings provided by the Tropical Ocean Global Atmosphere Coupled Ocean-Atmosphere Response Experiment (TOGA-COARE). The explanation relies on the basic principles of moist convection as enunciated in the Arakawa-Schubert cumulus parameterization. Our analysis shows that ...
According to current knowledge, convection over the tropical oceans increases with sea surface tempe...
Space-borne observations reveal that 20–40% of marine convective clouds below the freezing level pro...
Atmospheric Infrared Sounder (AIRS) data from the tropical oceans (30 degrees N to 30 degrees S) are...
Tropical observations show convective activity increasing sharply above sea surface temperatures (SS...
The factors that control the influence of deep convective detrainment on water vapor in the tropical...
The factors that control the influence of deep convective detrainment on water vapor in the tropical...
Atmospheric deep convection is responsible for transport of the most important greenhouse gas, water...
Intraseasonal variability of deep convection represents a fundamental mode of variability in the org...
The tropical deep overshooting convection is known to be most intense above continental areas such a...
Constraining precipitation processes in climate models with observations is crucial to accurately si...
The properties of equilibrated tropical convection are studied using a cloud-resolving model with la...
According to current knowledge, convection over the tropical oceans increases with sea surface tempe...
Fast convective transport in the tropics can efficiently redistribute water vapour and pollutants up...
This study investigates the relation between tropical convection and the atmospheric greenhouse effe...
The exact role of moist deep convection and associated latent heating in the tropical Hadley circula...
According to current knowledge, convection over the tropical oceans increases with sea surface tempe...
Space-borne observations reveal that 20–40% of marine convective clouds below the freezing level pro...
Atmospheric Infrared Sounder (AIRS) data from the tropical oceans (30 degrees N to 30 degrees S) are...
Tropical observations show convective activity increasing sharply above sea surface temperatures (SS...
The factors that control the influence of deep convective detrainment on water vapor in the tropical...
The factors that control the influence of deep convective detrainment on water vapor in the tropical...
Atmospheric deep convection is responsible for transport of the most important greenhouse gas, water...
Intraseasonal variability of deep convection represents a fundamental mode of variability in the org...
The tropical deep overshooting convection is known to be most intense above continental areas such a...
Constraining precipitation processes in climate models with observations is crucial to accurately si...
The properties of equilibrated tropical convection are studied using a cloud-resolving model with la...
According to current knowledge, convection over the tropical oceans increases with sea surface tempe...
Fast convective transport in the tropics can efficiently redistribute water vapour and pollutants up...
This study investigates the relation between tropical convection and the atmospheric greenhouse effe...
The exact role of moist deep convection and associated latent heating in the tropical Hadley circula...
According to current knowledge, convection over the tropical oceans increases with sea surface tempe...
Space-borne observations reveal that 20–40% of marine convective clouds below the freezing level pro...
Atmospheric Infrared Sounder (AIRS) data from the tropical oceans (30 degrees N to 30 degrees S) are...